Camera module and electronic device

By introducing a flip and telescopic motion design into the camera module, the problem of the single function of existing camera modules is solved, realizing the shooting needs of multiple angles and multiple scenes, and improving flexibility and practicality.

CN224481759UActive Publication Date: 2026-07-10IFLYTEK CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
IFLYTEK CO LTD
Filing Date
2025-08-04
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing camera modules have limited functionality and are insufficient to meet the shooting needs of different application scenarios.

Method used

Design a camera module comprising a first driving component, a flipping component, a second driving component, and a camera module. The first driving component drives the flipping component to flip, and the second driving component drives the camera module to perform telescopic movement, thereby enabling multi-angle and multi-scene shooting.

Benefits of technology

It improves shooting flexibility and practicality, can meet the shooting needs of multiple angles and multiple scenes, reduces the size of the camera module, and improves service life and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to electronic equipment technical field provides a kind of camera module and electronic equipment.Cameras module includes: first drive assembly, turnover component, second drive assembly and camera module;Turnover component and first drive assembly are connected, and first drive assembly is used to drive turnover component and turn over towards the front side or rear side of device ontology.Second drive assembly and camera module are respectively arranged in turnover component, and second drive assembly and camera module are connected, and camera module is configured to first turn over under the drive of first drive assembly, then telescopic motion is carried out under the drive of second drive assembly.The camera module provided by the utility model can meet the shooting demand of multiple angles and multiple scenes, greatly improve the shooting flexibility and practicality.
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Description

Technical Field

[0001] This utility model relates to the field of electronic equipment technology, and in particular to a camera module and electronic equipment. Background Technology

[0002] A camera module is a component manufactured through high-precision mechanical assembly and electronic integration processes. It features a compact structure, high stability, and excellent imaging quality. It is mainly used in electronic devices such as smartphones, tablets, and laptops to meet users' various needs for selfies, video calls, and photography in different scenarios.

[0003] Existing camera module technologies mainly include telescopic and flip-type modules. Telescopic camera modules achieve the telescopic movement of the camera through mechanical structures, typically using springs, gears, and other components to allow the camera to extend and retract within a specific track or space. They offer advantages such as high space utilization and camera protection, and are primarily used in equipment where space is a constraint. Flip-type camera modules, on the other hand, utilize motors, hinges, and other mechanical devices to allow the camera to flip at a certain angle to adapt to different shooting scenarios and angle requirements. They feature flexible and versatile shooting angles and are mainly used in equipment that emphasizes capturing multi-angle scenes.

[0004] As can be seen from the above, the design of existing camera modules still has certain limitations, with limited functionality, making it difficult to meet the shooting needs of different application scenarios. Utility Model Content

[0005] This utility model provides a camera module and electronic device to at least solve or improve the problem that existing camera modules have limited functionality and are difficult to meet the shooting needs of different application scenarios.

[0006] This utility model provides a camera module applied to the device body, comprising:

[0007] First driving component;

[0008] A flipping component is connected to the first driving component, which is used to drive the flipping component to flip toward the front or rear of the device body.

[0009] A second driving component and a camera module are respectively disposed on the flipping component. The second driving component and the camera module are connected. The camera module is configured to first flip under the drive of the first driving component, and then perform a telescopic movement under the drive of the second driving component.

[0010] According to the present invention, a camera module is provided in which the flipping component has a receiving cavity and an opening communicating with the receiving cavity;

[0011] The second driving component and the camera module are respectively disposed in the receiving cavity, and the camera module and the opening are disposed opposite to each other;

[0012] The second driving component is used to drive the camera module to extend out of the receiving cavity from the opening or retract into the receiving cavity.

[0013] According to the camera module provided by this utility model, the first driving component includes:

[0014] A bracket on which the flipping member is rotatably mounted;

[0015] A first driving member is connected to the flipping member to drive the flipping member to flip relative to the support.

[0016] According to the present invention, a camera module is provided, the bracket comprising:

[0017] A first bracket is provided along the axial direction of the flipping member, and the first bracket and the first driving member are disposed opposite each other on both sides of the flipping member;

[0018] The second bracket is connected to the first bracket and the first drive member respectively. The second bracket has a clearance opening for accommodating the flipping member.

[0019] According to the present invention, a camera module is provided in which a first connecting shaft is formed on the side of the flipping member facing the first bracket, and the first connecting shaft and the first bracket are rotatably connected.

[0020] The flipping member has a second connecting shaft formed on the side facing the first driving member. The second connecting shaft is coaxial with the first connecting shaft and is connected to the first driving member.

[0021] According to the camera module provided by this utility model, the first driving component includes:

[0022] Drive motor;

[0023] A reduction gearbox, the first end of which is connected to the drive motor, and the second end of which is connected to the tilting component.

[0024] According to the camera module provided by this utility model, the second driving component includes:

[0025] Second drive unit;

[0026] A lead screw, which is connected to a second driving member, the second driving member being used to drive the lead screw to rotate;

[0027] Guide rods, the guide rods and the lead screws are spaced apart from each other and extend in the same direction;

[0028] The sliding seat has a threaded hole and a guide hole. The lead screw is threaded into the threaded hole, and the guide rod passes through the guide hole. The sliding seat is connected to the camera module.

[0029] According to the present invention, a camera module is provided, the camera module comprising:

[0030] The base is connected to the second drive assembly;

[0031] At least one camera is disposed on the front and / or back of the base.

[0032] According to the camera module provided by this utility model, the camera module further includes:

[0033] A fill light is provided on the base, and the fill light and the camera are arranged side by side.

[0034] This utility model also provides an electronic device, including: the camera module as described above;

[0035] The device body, wherein the camera module is disposed on the device body, and the camera module and the device body are communicatively connected.

[0036] According to the present invention, an electronic device is provided with a groove on the back of the device body, the groove being disposed near the top edge of the device body, and the camera module being disposed in the groove.

[0037] The camera module and electronic device provided by this utility model, by setting a first driving component, a flipping component, a second driving component and a camera module, the first driving component is used to drive the flipping component to flip, the second driving component and the camera module are set on the flipping component, the second driving component drives the camera module to perform telescopic movement, so that the camera module can first perform flipping movement and then telescopic movement, which can meet the shooting needs of multiple angles and multiple scenes, and greatly improve the shooting flexibility and practicality. Attached Figure Description

[0038] To more clearly illustrate the technical solutions in this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.

[0039] Figure 1 This is a schematic diagram of the camera module provided by this utility model installed on the device body.

[0040] Figure 2 This utility model provides Figure 1 Enlarged view of part K.

[0041] Figure 3 This utility model provides Figure 2 A diagram showing the camera module when it is extended.

[0042] Figure 4 This is a schematic diagram of the camera module provided by this utility model when the flipping component is not flipped.

[0043] Figure 5 This is a schematic diagram of the camera module provided by this utility model when the flipping component is flipped.

[0044] Figure 6 This is a three-dimensional structural diagram of the camera module provided by this utility model.

[0045] Figure 7 This is a schematic diagram of the camera module provided by this utility model when it is not extended.

[0046] Figure 8 This is a schematic diagram of the camera module provided by this utility model when it is extended.

[0047] Figure label:

[0048] 1. Camera module;

[0049] 11. First drive assembly; 12. Flipping component; 13. Second drive assembly; 14. Camera module; 15. First connecting shaft; 16. Second connecting shaft;

[0050] 111. Bracket; 112. First drive component; 131. Second drive component; 132. Lead screw; 133. Guide rod; 134. Sliding seat; 141. Base; 142. Camera; 143. Fill light;

[0051] 1111, First support; 1112, Second support; 1121, Drive motor; 1122, Gearbox; 11121, Clearance opening;

[0052] 2. Equipment body; 21. Groove. Detailed Implementation

[0053] To make the objectives, technical solutions, and advantages of this utility model clearer, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.

[0054] The following is combined Figures 1-8 The camera module and electronic device provided by the utility model embodiments will be described in detail through specific implementation examples and application scenarios.

[0055] In some embodiments, such as Figure 1 , Figure 5 and Figure 6 As shown, this utility model embodiment provides a camera module 1, applied to the device body 2, including: a first driving component 11, a flipping component 12, a second driving component 13, and a camera module 14.

[0056] The flipping component 12 is connected to the first drive assembly 11, which is used to drive the flipping component 12 to flip toward the front or rear of the device body 2.

[0057] The second drive assembly 13 and the camera module 14 are respectively disposed on the flipping member 12. The second drive assembly 13 and the camera module 14 are connected. The camera module 14 is configured to first flip under the drive of the first drive assembly 11, and then perform telescopic movement under the drive of the second drive assembly 13.

[0058] Understandably, the first drive component 11 is typically mounted on the device body 2. The output of the first drive component 11 is connected to the flipping member 12 to drive the flipping member 12 to flip, thereby adjusting the shooting angle of the camera module 1. The front side of the device body 2 refers to the side of the device body 2 with the display screen, which faces the user during use. The rear side of the device body 2 refers to the other side opposite to the front side, which is usually on a plane parallel to the front side and faces away from the user during use. When the camera module 14 flips towards the front side of the device body 2, the camera module 14 is in a pointing / reading state.

[0059] Specifically, the flipping member 12 flips around an axis that is parallel to or coincides with the side of the device body 2 along its length.

[0060] The second drive component 13 is mounted on the flipping component 12. The output end of the second drive component 13 is connected to the camera module 14 to drive the camera module 14 to perform telescopic movement, thereby improving the space utilization of the camera module 14. In the event of a confined space with obstacles, the camera module 14 can be controlled to retract to protect its safe use.

[0061] Specifically, the moving direction of the camera module 14 is perpendicular to the rotation axis of the flipping member 12, and the rotation axis of the flipping member 12 can be set along the length direction of the device body 2. Correspondingly, the moving direction of the camera module 14 is along the width direction of the device body 2.

[0062] Specifically, the flipping angle of the flipping member 12 can be 0° to 30°. Compared with the camera module in the prior art that flips from the rear to the front of the device body, the flipping member 12 in this embodiment can conveniently achieve angle adjustment through a small-angle flip.

[0063] Along the width direction of the device body 2, the camera module 14 is movably disposed on the flipping member 12. Specifically, the camera module 14 can be disposed within the notch of the flipping member 12. Due to the obstruction of the mounting surfaces of the device body 2 and the flipping member 12, the camera module 14 can extend out of the notch to perform normal shooting. Alternatively, the camera module 14 can be disposed within the cavity formed by the flipping member 12, with the cavity protecting the camera module 14, allowing the camera module 14 to extend out of the cavity to perform shooting.

[0064] Since the first driving component 11 first drives the flipping component 12 to flip, and the second driving component 13 then drives the camera module 14 to extend and retract, the shooting angle of the camera module 14 can be adjusted first, and then the distance between the lens surface of the camera module 14 and the target object can be adjusted to meet different camera movement paths of the camera module 14. Alternatively, when encountering an interfering object, the camera module 1 can be retracted into the flipping component 12 at any time, ensuring the safety of the camera module 1. Compared with the structure where the camera module extends and retracts before flipping, which requires a deep groove to be opened on the device body to accommodate the extension channel, the camera module 14 in this embodiment flips first, allowing for a smaller external opening for extension and retraction, which is more conducive to the processing and manufacturing of the device body 2.

[0065] The camera module 1 provided by this utility model includes a first driving component 11, a flipping component 12, a second driving component 13, and a camera module 14. The first driving component 11 drives the flipping component 12 to flip. The second driving component 13 and the camera module 14 are located on the flipping component 12. The second driving component 13 drives the camera module 14 to perform telescopic movements, so that the camera module 14 can first perform flipping movements and then telescopic movements, which can meet the shooting needs of multiple angles and multiple scenes, and greatly improve the shooting flexibility and practicality.

[0066] In some embodiments, such as Figure 1 , Figure 2 and Figure 3 As shown, the flipping member 12 in this embodiment has a receiving cavity and an opening communicating with the receiving cavity.

[0067] The second drive assembly 13 and the camera module 14 are respectively disposed in the receiving cavity, with the camera module 14 and the opening being disposed opposite each other.

[0068] The second drive component 13 is used to drive the camera module 14 to extend out of the cavity from the opening or retract into the cavity.

[0069] Understandably, to ensure a compact design of the flip component 12, the second drive assembly 13 and the camera module 14 are housed within the receiving cavity of the flip component 12. When the camera module 14 is not in use, it can be stored away, reducing the overall size of the camera module 1. Furthermore, when the camera module 14 retracts into the receiving cavity, the lens can be stored within it, effectively preventing scratches, bumps, and oil contamination during daily carrying. It also provides dust and liquid splash protection, greatly extending the lifespan of the camera module 14.

[0070] In some embodiments, such as Figure 4 As shown, the first driving component 11 in this embodiment includes a bracket 111 and a first driving member 112.

[0071] A flipping member 12 is rotatably disposed on the bracket 111; a first driving member 112 is connected to the flipping member 12 to drive the flipping member 12 to flip relative to the bracket 111.

[0072] Understandably, the bracket 111 is used to conveniently install the flip component 12, so that when assembling the device body 2 and the camera module 1, the flip component 12 and the device body 2 can be assembled through the installation of the bracket 111. This avoids the need to set up complex mating structures for connection in the flip component 12 or the device body 2 itself.

[0073] Specifically, the bracket 111 can be set on the first drive assembly 11 or on the device body 2, as long as it is ensured that the flipping member 12 can rotate relative to the bracket 111.

[0074] The first driving member 112 can drive the flipping member 12 to flip. Specifically, the first driving member 112 can be a motor.

[0075] In some embodiments, such as Figure 4 , Figure 7 and Figure 8 As shown, the bracket 111 in this embodiment includes: a first bracket 1111 and a second bracket 1112.

[0076] Along the axial direction of the flipping member 12, the first bracket 1111 and the first drive member 112 are disposed opposite to each other on both sides of the flipping member 12.

[0077] The second bracket 1112 is connected to the first bracket 1111 and the first driving member 112 respectively. The second bracket 1112 has a clearance opening 11121, which is used to accommodate the flipping member 12.

[0078] Understandably, in order to enable the flipping member 12 and the first driving member 112 to form a whole after assembly, this embodiment provides a second bracket 1112, and provides a clearance opening 11121 on the second bracket 1112 for accommodating the flipping member 12. The volume of the second bracket 1112 covers the axial length of the flipping member 12, and the first bracket 1111 and the first driving member 112 are respectively mounted on the second bracket 1112 on both sides of the axial direction of the flipping member 12. On one side of the second bracket 1112 along the axial direction of the flipping member 12, the output end of the first driving member 112 is connected to the flipping member 12 to drive the flipping member 12 to rotate. On the other side of the second bracket 1112 along the axial direction of the flipping member 12, the first bracket 1111 is mounted on the second bracket 1112.

[0079] In practical applications, the first bracket 1111 can be placed in the camera module 1, and the second bracket 1112 can be placed on the device body 2, or both the first bracket 1111 and the second bracket 1112 can be placed in the camera module 1. By assembling the first bracket 1111 and the second bracket 1112, the installation of the camera module 1 and the device body 2 can be conveniently achieved.

[0080] In some embodiments, such as Figure 6 As shown, in this embodiment, a first connecting shaft 15 is formed on the side of the flipping member 12 facing the first bracket 1111, and the first connecting shaft 15 and the first bracket 1111 are rotatably connected.

[0081] A second connecting shaft 16 is formed on the side of the flipping member 12 facing the first driving member 112. The second connecting shaft 16 and the first connecting shaft 15 are coaxially arranged and connected to the first driving member 112.

[0082] Understandably, a through hole is provided on the first bracket 1111, and the first connecting shaft 15 is inserted into the through hole to achieve a rotatable connection between the first bracket 1111 and the first connecting shaft 15. A second connecting shaft 16 is provided on the side of the flipping member 12 away from the first connecting shaft 15. The second connecting shaft 16 is connected to the output end of the first driving member 112, and the first driving member 112 can drive the second connecting shaft 16 to rotate.

[0083] Meanwhile, the first connecting shaft 15 and the second connecting shaft 16 are coaxially arranged so that the rotation of the first connecting shaft 15 and the second connecting shaft 16 can be along the same axis. Under the driving force of the first driving member 112, the first connecting shaft 15 and the second connecting shaft 16 rotate on the same axis, thereby synchronously driving the flipping member 12 to flip from both sides.

[0084] Because the first connecting shaft 15 and the second connecting shaft 16 are simple to process and easy to install, they can easily connect the two sides of the axial direction of the flipping component 12 to the first bracket 1111 and the first driving component 112 respectively, and can also transmit the rotational force of the first driving component 112 through the first connecting shaft 15 and the second connecting shaft 16, thus realizing the compact design of the flipping component 12.

[0085] In some embodiments, such as Figure 4 As shown, the first driving component 112 in this embodiment includes a drive motor 1121 and a reduction gearbox 1122.

[0086] The first end of the gearbox 1122 is connected to the drive motor 1121, and the second end of the gearbox 1122 is connected to the tilting component 12.

[0087] Understandably, the drive motor 1121 can provide a stable and adjustable torque output, ensuring that the tilting component 12 can rotate smoothly at various angles. Since the drive motor 1121 has a high speed but low torque, the gearbox 1122 can significantly reduce the output speed through the gear set, while increasing the output torque by a factor of two, thereby achieving precise angle control of the tilting component 12.

[0088] In some embodiments, such as Figure 6 As shown, the second drive assembly 13 in this embodiment includes: a second drive member 131, a lead screw 132, a guide rod 133, and a sliding seat 134.

[0089] The lead screw 132 is connected to the second drive member 131, which is used to drive the lead screw 132 to rotate; the guide rod 133 and the lead screw 132 are spaced apart from each other and extend in the same direction.

[0090] The sliding seat 134 has a threaded hole and a guide hole. The lead screw 132 is threadedly engaged with the threaded hole. The guide rod 133 passes through the guide hole. The sliding seat 134 is connected to the camera module 14.

[0091] Understandably, when the second drive component 131 drives the lead screw 132 to rotate, the sliding seat 134 moves due to the threaded engagement between the lead screw 132 and the threaded hole on the sliding seat 134, and the guiding effect of the guide rod 133 and the guide hole. Since the guide rod 133 and the lead screw 132 are spaced apart and parallel, and move in the same direction as the camera module 14, it ensures that the sliding seat 134 does not deviate or rotate, and can move along the extension direction of the camera module 14. The lead screw 132 provides precise displacement control and withstands axial force, while the guide rod 133 ensures the linearity of the sliding seat 134's movement and resists lateral forces, thus improving the overall rigidity of the second drive assembly 13.

[0092] Specifically, the second driving component 131 can be a motor.

[0093] In some embodiments, such as Figure 6 As shown, the camera module 14 in this embodiment includes a base 141 and a camera 142.

[0094] The base 141 is connected to the second drive assembly 13; at least one camera 142 is disposed on the front and / or back of the base 141.

[0095] Understandably, the base 141 is used to house the camera 142, and the base 141 has a hollow cavity in which the camera 142 is housed. A light-transmitting hole is provided on the base 141, and the lens surface of the camera 142 is positioned facing the light-transmitting hole. The front of the base 141 is consistent with the front of the device body 2, and the back of the base 141 is consistent with the back of the device body 2. The camera module 1 is typically mounted entirely on the back of the device body 2.

[0096] The camera 142 can be mounted on the front of the base 141 or on the back of the base 141.

[0097] When the camera 142 is positioned on the front of the base 141, and the flipping component 12 is not flipped, the camera 142 functions as a front-facing camera. When the camera module 14 extends out of the flipping component 12, the camera 142 is in a front-facing camera state. When the flipping component 12 flips, the camera 142 flips towards the front of the device body 2 until the camera 142 reaches the finger-reading state, at which point the camera 142 functions as a finger-reading camera 142.

[0098] Similarly, when the camera 142 is located on the back of the base 141, when the flip member 12 is not flipped, the camera 142 acts as a rear camera. When the camera module 14 extends out of the flip member 12, the camera 142 is in a rear camera state.

[0099] Specifically, there may be only one camera 142, which may be located on the front or back of the base 141. Alternatively, there may be multiple cameras 142, all of which may be located on the front or back of the base 141; or some of the cameras 142 may be located on the front of the base 141, while others may be located on the back.

[0100] In some embodiments, such as Figure 6 As shown, the camera module 14 in this embodiment also includes a fill light 143. The fill light 143 is disposed on the base 141, and the fill light 143 and the camera 142 are arranged side by side.

[0101] Understandably, the fill light 143 is used to ensure sufficient brightness for the camera 142 when it is taking pictures. The fill light 143 can be an LED light.

[0102] Specifically, one or two fill lights 143 can be set, with the two fill lights 143 located on either side of the camera 142.

[0103] In some embodiments, such as Figure 1 , Figure 2 and Figure 3 As shown, this utility model embodiment also provides an electronic device, including: a camera module 1 and a device body 2 as described above, the camera module 1 being disposed on the device body 2, and the camera module 14 being communicatively connected to the device body 2.

[0104] It is understood that the electronic device shown in this embodiment can be an educational device such as a learning machine or a reading pen. The device body 2 and the camera module 1 can transmit information. When the camera module 1 takes a picture, the camera module 1 can send the picture of the object to the device body 2 and display it on the display screen of the device body 2. The device body 2 can also recognize the picture of the object taken by the camera 142 and output the recognition and retrieval results, which are displayed on the display screen.

[0105] Since the electronic device includes a camera module 1, and the specific structure of the electronic device is as described in the above embodiments, the electronic device in this embodiment includes all the technical solutions of the above embodiments. Therefore, all the beneficial effects achieved by all the technical solutions of the above embodiments will not be described in detail here.

[0106] In some embodiments, such as Figure 1 , Figure 2 and Figure 3 As shown, the device body 2 in this embodiment has a groove 21 on its back side. The groove 21 is located near the top edge of the device body 2, and the camera module 1 is located in the groove 21.

[0107] Understandably, the camera module 1 is rotatably mounted in the groove 21 along the length of the device body 2, with the lens of the camera module 1 facing the side of the device body 2. The rotation of the flipping component 12 causes the camera module 14 to rotate slightly, adjusting the shooting angle of the lens of the camera module 14. The camera module 1 is mounted in the groove 21 via the bracket 111. When the camera module 1 is not flipped or extended, it forms an integral part of the device with the groove 21, which is beneficial to the aesthetics of the electronic device.

[0108] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.

Claims

1. A camera module, applied to the device body, characterized in that, include: First driving component; A flipping component is connected to the first driving component, which is used to drive the flipping component to flip toward the front or rear of the device body. A second driving component and a camera module are respectively disposed on the flipping component. The second driving component and the camera module are connected. The camera module is configured to first flip under the drive of the first driving component, and then perform telescopic movement under the drive of the second driving component. The flipping member has a receiving cavity and an opening communicating with the receiving cavity; The second driving component and the camera module are respectively disposed in the receiving cavity, and the camera module and the opening are disposed opposite to each other; The second driving component is used to drive the camera module to extend out of the receiving cavity from the opening or retract into the receiving cavity; The first driving component includes: A bracket on which the flipping member is rotatably mounted; A first driving member is connected to the flipping member to drive the flipping member to flip relative to the support.

2. The camera module according to claim 1, characterized in that, The support includes: A first bracket is provided along the axial direction of the flipping member, and the first bracket and the first driving member are disposed opposite each other on both sides of the flipping member; The second bracket is connected to the first bracket and the first drive member respectively. The second bracket has a clearance opening for accommodating the flipping member.

3. The camera module according to claim 2, characterized in that, The flipping member has a first connecting shaft on the side facing the first bracket, and the first connecting shaft is rotatably connected to the first bracket. The flipping member has a second connecting shaft formed on the side facing the first driving member. The second connecting shaft is coaxial with the first connecting shaft and is connected to the first driving member.

4. The camera module according to claim 1, characterized in that, The first driving element includes: Drive motor; A reduction gearbox, the first end of which is connected to the drive motor, and the second end of which is connected to the tilting component.

5. The camera module according to any one of claims 1 to 4, characterized in that, The second driving component includes: Second drive unit; A lead screw, which is connected to a second driving member, the second driving member being used to drive the lead screw to rotate; Guide rods, the guide rods and the lead screws are spaced apart from each other and extend in the same direction; The sliding seat has a threaded hole and a guide hole. The lead screw is threaded into the threaded hole, and the guide rod passes through the guide hole. The sliding seat is connected to the camera module.

6. The camera module according to any one of claims 1 to 4, characterized in that, The camera module includes: The base is connected to the second drive assembly; At least one camera is disposed on the front and / or back of the base.

7. The camera module according to claim 6, characterized in that, The camera module also includes: A fill light is provided on the base, and the fill light and the camera are arranged side by side.

8. An electronic device, characterized in that, include: The camera module as described in any one of claims 1 to 7; The device body, wherein the camera module is disposed on the device body, and the camera module and the device body are communicatively connected.

9. The electronic device according to claim 8, characterized in that, The back of the device body is provided with a groove, which is located near the top edge of the device body, and the camera module is disposed in the groove.